Blowing Machine and Automatic Changer

ABSTRACT

A blowing machine for containers, in particular bottles, with a preform heating module, to which a blow wheel is assigned and which contains a conveyor chain with exchangeable heating mandrels and optionally exchangeable shielding plates, with a service area provided on the conveyor chain in the heating module, in which an automatic changer for the automatic changeover of at least the heating mandrels is arranged. The automatic changer includes a magazine holder, a turret, which is adjustable and rotatable between the magazine holder and the conveyor chain, with grippers, and movably drivable unlocking components for engaging locks.

CROSS-REFERENCE TO RELATED APPLICATION

The present application claims the benefit of priority of GermanApplication No. 102009023726.7, filed Jun. 3, 2009. The entire text ofthe priority application is incorporated herein by reference in itsentirety.

FIELD OF THE DISCLOSURE

The disclosure relates to a blowing machine, such as for stretch blowingof containers such as plastic bottles, and an automatic changer formachine changeovers.

BACKGROUND

In a blowing machine, in particular a stretch blowing machine forplastic bottles, prefabricated preforms are conveyed along a conveyorline by a conveyor chain along heating stations of a heating modulebefore they are processed in the blow wheel or the blowing station. Eachpreform is already formed with an opening which at least essentiallycorresponds to the opening of the finished bottle. On the conveyor chainheating mandrels are exchangeably held, which are adapted to the openingof the preform and loaded with preforms on entering the heating module,and which often rotate the preforms when passing through the heatingmodule, and are then unloaded of the preforms, before said preforms areprocessed in the blowing station. Each preform is held at the opening bythe heating mandrel inserted in it. Since many different types ofcontainer can be manufactured in the blowing machine, for examplebottles, which require different openings (opening diameter, openinglength, opening shape and retaining ring), the blowing machine forpreforms must be retooled with a different opening, at least with regardto the heating mandrels. Apart from heating mandrels there are otherfittings on the conveyor chain, such as shielding plates, which areoften also to be changed during retooling. The shielding plate has athrough passage for the heating mandrel or the preform, whereby thethrough passage should enclose the preform as tightly as possible toshield the opening in the heating module from unwanted thermal exposure.For preforms with a different opening length only the heating mandrelsneed to be optionally changed. For preforms with a different openingdiameter usually the shielding plates also have to be changed. Inpractice these changing processes have so far been carried out manuallyand individually by operators, and are laborious and time-consuming,because there are up to 600 heating mandrels and shielding plates on theconveyor chain. The optionally high residual thermal stress isunpleasant for the operator and provokes erroneous changeovers. Inaddition, a manual changeover results in a very long downtime inproduction for the blowing machine or a complete plant in which theblowing machine is a component.

SUMMARY OF THE DISCLOSURE

The object of the disclosure is to provide a blowing machine and auniversal automatic changer with which the operator can be relieved andchangeover times can be significantly shortened during changeover.

In the blowing machine and due to the automatic changer at least theheating mandrels are changed automatically. In this way the operatorsare relieved and a changeover process is shortened substantially,because at least the heating mandrels and optionally also the shieldingplates can, where required, be quickly changed, even in groups. Also,the risk of incorrect changeover is minimized. Due to the shorterchangeover process the downtimes in production for the blowing machineand optionally for a complete plant line are significantly reduced. Evenjust with the changeover of a conveyor chain fitted with 300 heatingmandrels, approximately fifty minutes can be saved in comparison tomanual changeover. The automatic changer is mounted stationarily in aservice area, which is optionally specially provided for this purpose,in the heating module and remains in the heating module in normaloperation. This does not exclude however the automatic changer frombeing mobile in design and, where required, for docking in the servicearea and of being used optionally for other blowing machines. With themagazine holder, the turret with the grippers and the integrated orassigned unlocking components, the automatic changer is simple inconstruction and functionally reliable. The automatic changer can eitherbe a fully integrated component of the heating module or is only used asrequired. To reduce the changeover time even further, a plurality ofautomatic changers can be used, which operate simultaneously with theblow wheel uncoupled and with the conveyor chain moving in steps. Thisalso includes, for example, providing for an automatic changer forheating mandrels and an automatic changer for shielding plates, althoughthe preference is for providing an automatic changer, whichalternatively only changes the heating mandrels or the heating mandrelsand the shielding plates. If the heating mandrels and the shieldingplates are changed by one automatic changer, then this occurssequentially, although this should also include that each heatingmandrel is changed simultaneously with the shielding plate assigned toit.

In order to be able to carry out the changeover process quickly, it isexpedient if a buffer system for at least the heating mandrels,preferably also the shielding plates, is assigned to the automaticchanger. The buffer system is preferably designed for making magazinesavailable, which each contain a group of heating mandrels or shieldingplates. Optionally, the automatic changer is discharged and chargedindividually, but the heating mandrels and optionally shielding platescan also be buffered without magazines.

In an alternative the automatic changer can be manually charged anddischarged from the buffer system by at least one operator. This manualintermediate step is simple and convenient for the operator, whereby itcan be ensured through appropriate design of the automatic changer thatno erroneous charging is possible.

In a preferred embodiment even at least one robot is provided forautomatic charging and discharging of the automatic changer from thebuffer system. The cycling of the conveyor chain, control of theautomatic changer and charging and discharging of the automatic changerfrom the buffer system are expediently carried out electronically andcomputer controlled in mutual correlation. Compared to the manualcharging and discharging of the automatic changer A, with the use of atleast one robot R a time saving of about 5° A can be optionallyachieved.

For the case that only the heating mandrels are automatically changed,which are arranged in receptacles in spindles which move on the conveyorchain relative to the shielding plates, a spindle bridge with a spindlemovement mechanism can be supported either stationarily or on theautomatic changer in the service area. To change each heating mandrel itis displaced by means of the spindle movement mechanism on far relativeto the shielding plate that it can be conveniently grasped or placed inposition. In conveyor chains of this nature equipped with spindles thespindles have the task of rotating the heating mandrel in the heatingmodule and of temporarily moving it, for loading it with a preform andfor discharging, to a charging or discharging station, for example via adisplacement of about 44 mm linearly. This situation on the conveyorchain, designed for the proper functioning of the blowing machine, isalso used beneficially by the automatic changer for the automaticchangeover of only the heating mandrels.

In an expedient embodiment the automatic changer comprises in a framebase a magazine holder, a removal and insertion turret arranged in alinear unit adjustable between at least one waiting position and atleast one changing position and with adjustable grippers, and movablydrivable unlocking components, positioned in the region of the conveyorchain, for engaging locks on the conveyor chain.

The unlocking components are expediently arranged with actuators eitheron the spindle bridge or on the automatic changer, whereby the unlockingcomponents, adjustable by the actuators, preferably pneumatic cylinders,can be extendable and raisable forks or fingers for heating mandrellocks and/or extendable pressure pins for shielding plate locks. In anadvantageous further development the pressure pins can also be realizedas pressure plates. The forks or fingers can either be inserted betweenthe shielding plate plug-on feet or at the side next to them if only theheating mandrels are to be changed, and are thereafter or during theprocess raised to release the correspondingly formed heating mandrellock. Expediently, the unlocking components can be combined into groupsin order to be able to simultaneously change a group of heating mandrelsand/or shielding plates.

In an expedient embodiment the magazine holder is a table which pivotsabout an approximately vertical axis, preferably by 180° to and fro, inthe frame base and on which at least one magazine clamping device isarranged. This simplifies the charging and discharging of the magazineholder.

In a favorable embodiment the turret with the grippers arranged on itcan be rotationally driven in the frame base and on the linear unit insteps about a horizontal axis. The turret has either only grippers forheating mandrels or alternating grippers in the direction of rotationfor heating mandrels and shielding plates. The grippers alternate withone another, for example, with 90° divisions.

In an expedient embodiment initially unlocked shielding plates followedby unlocked heating mandrels can be removed with the automatic changerin a changeover cycle using the turret, before the heating mandrels tobe inserted and then the shielding plates to be inserted can be fitted.The turret here expediently forms a temporary store independent of thebuffer system for the heating mandrels and shielding plates removed andto be inserted during a changeover cycle. This embodiment is aparticularly important aspect of the disclosure, because the automaticchanger is formed universally for the automatic changeover of only theheating mandrels and/or for the sequential changeover of the heatingmandrels and shielding plates, and thus offers the user of a plant lineincluding a blowing machine universally usable equipment, which with thesame automatic changer facilitates short changeovers irrespective ofwhether for a modification, for example of only the opening length withshielding plates remaining on the conveyor chain, only the heatingmandrels are to be changed, or, for example with the modification of theopening diameter, the shielding plates and the heating mandrels are tobe changed. This is a substantial advantage, particularly for users whoprocess many different containers in relatively small production runsand have to frequently retool. On the automatic changer itself notime-consuming retooling work is required for this, since the differentchangeover modes can be simply controlled by the controller.

Expediently, the buffer system comprises at least a shelf, a table, achanger carriage, a paternoster store, a carousel, or a similar storagedevice, preferably either with individual storage points for heatingmandrels and/or shielding plates or with magazine storage points forheating mandrel and shielding plate magazines.

With one expedient embodiment of the automatic changer it is assigned atleast a magazine buffer system at least for heating mandrel groups whichare removed and to be inserted, preferably even also shielding plategroups. This buffer system can, for example, hold magazines ready inwhich in each case groups of heating mandrels or automatic changers aresupported and positioned ready. The full magazines or the individualheating mandrels or respectively shielding plates are transferred eithermanually by an operator or in a fully automatic sequence by at least onerobot, which is arranged between the automatic changer and the buffersystem.

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments of the object of the disclosure are described based on thedrawings. The following are shown:

FIG. 1 a perspective schematic representation of a heating module of ablowing machine with an automatic changer,

FIG. 2 the automatic changer in association with a conveyor chain of aheating module,

FIG. 3 a side view of the automatic changer with an assigned buffersystem,

FIG. 4 a side view of the automatic changer with an assigned buffersystem and at least one robot arranged between them,

FIG. 5 magazines for heating mandrel groups and shielding plate groups,

FIG. 6 a side view in the region of the conveyor chain,

FIG. 7 a partial sectional view, enlarged to scale, of changing ashielding plate,

FIG. 8 a partial sectional view, enlarged to scale, of changing aheating mandrel, and

FIG. 9 a side view of a detail when changing, for example, a heatingmandrel.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

FIG. 1 shows, for example as part of a plant line, a blowing machine Mfor the manufacture of containers, for example plastic bottles, whichcomprises a heating module H and a blowing station or a blow wheel B(the latter not shown in detail; B relates only to the position of whereit should be arranged). In the heating module H preforms are moved pastheating stations by means of a conveyor chain K, whereby on the conveyorchain K at least one service area 1 is left free in which an automaticchanger A, for example, is integrated into the blowing machine M. Theautomatic changer A is a modular construction of a plurality of modules,and is used for the automatic changeover of heating mandrels and/orshielding plates (not shown in FIG. 1) arranged alternately on theconveyor chain K. The service area 1 is located for example in thevicinity of the diversion region of the conveyor chain K, or in thevicinity of the interface to the blowing station B, which can beuncoupled from the conveyor chain K for a changeover process.Particularly preferably, the service area 1 is located between twodiversion regions of the conveyor chain K. Thus, easy handling in astraight section of the conveyor chain is facilitated. With theautomatic changer A an operator 2 is indicated who, for example, chargesor discharges the automatic changer manually.

The preforms are loaded onto the heating mandrels in or before theheating module H and are transported by them to the blowing station Bfor heat treatment and are discharged and transferred in this regionfrom the heating mandrels again. Since on the preforms the openingregions are already largely preformed to the opening region of thesubsequent container and have to be protected against inexpedientheating, each heating mandrel is generally assigned a shielding plate,whereby the heating mandrels and shielding plates are explained indetail based on the further figures.

The automatic changer in FIG. 2 has a strong frame base 3 with posts,transverse bars and foundations and includes either an electroniccontrol device or is connected to one (not illustrated). As mentioned,the automatic changer A consists of a plurality of modules integratedinto the frame base 3 and as equipment of the heating module H or of theblowing machine M is functionally assigned in the service area 1 to asection of the conveyor chain K. The automatic changer A is expedientlyinstalled stationarily and permanently below the service area 1 of theconveyor chain K. In the service area 1 a spindle bridge 11, forexample, is mounted stationarily on a supporting structure 12, to whicha supporting plate 13 is arranged on the underside which bears thedrivable unlocking components 14. In an alternative embodiment theunlocking components 14 could also be directly arranged, for example, onthe frame base 3 of the automatic changer A. The conveyor chain K has inthis embodiment spindles 9 rotationally supported on chain links andwhich are driven by a drive motor for rotation, for example, on thespindle bridge 11 during the passage of the preforms through the heatingmodule H, and can also be lowered in the vertical direction by apredetermined displacement from the illustrated position (double arrow10) against a spring force, and in fact in a charging region at thestart of the conveyor line to charge the preforms and also, in adischarge region, to discharge the preforms and transfer them to theblowing station. In FIG. 2 a heating mandrel D and an assigned shieldingplate P are illustrated. Expediently, each chain link has at least onespindle 9, one heating mandrel D and one shielding plate P.

In the frame base 3 the automatic changer A in FIG. 2 has a magazineholder 4, for example, a table 5 with clamping grooves for magazineholders 6, 6′, which, for example, can be rotated to and fro by 180°around an approximately vertical axis X. Each magazine holder 6, 6′ has,for example, a clamping device 7 for the releasable fixing of a magazine8 resp. 8′. In the magazine 8 a group of shielding plates P (only one isshown in FIG. 2) is positioned ready, for example six to eight shieldingplates P. In the magazine 8′ a group of heating mandrels D (only one isshown in FIG. 2) is positioned ready, for example six or eight heatingmandrels D.

In the frame base 3 adjacent to the magazine holder 4 a linear unit isarranged, which can be composed of cheeks 15 which are linearly movablevertically in the frame base, a gear 16, a spindle drive 17 and a drivemotor 18 and bears a removal and insertion turret 19 which is pivotableabout an essentially horizontal axis Y. On the turret 19 and distributedin the circumferential direction (e.g. in 90° divisions) grippers 39 or39′ with gripper drives, which are not outlined in further detail, arein each case accommodated. Two grippers 39′, mutually offset by 180°,are each used for fixing a group of heating mandrels D, whereas the twoother grippers 39, similarly mutually offset by 180°, are each used forfixing a group of shielding plates P. The turret 19 can be adjustedbetween a transfer position, illustrated in FIG. 2, in the vicinity ofthe magazine holder 4 and at least one not illustrated, raised insertionposition by means of the linear unit and is driven, for example, by adrive 20. The pivoting capability of the magazine holder 4 about thevertical axis X facilitates the charging and discharging of the magazineholder 4 with magazines 8, 8′, for example manually by the operator 2,who is indicated in FIG. 1, and apportions the magazines 8, 8′ for thetransfer or delivery by the turret 19.

Since the turret 19 holds in each case a group of heating mandrels D orshielding plates P for insertion and also in each case accepts a groupof heating mandrels and shielding plates D, P after a changeover, itacts as a temporary store or temporary buffer.

Although the automatic changer A illustrated in FIGS. 1 and 2 is in eachcase designed for exchanging a group of heating mandrels D and/orshielding plates P, in an alternative embodiment it could also bedesigned such that it automatically exchanges the heating mandrels D andthe shielding plates P.

Analogous to FIG. 1, FIG. 3 illustrates in a side view the automaticchanger A, an operator 2 and a buffer system S assigned to the automaticchanger A for holding ready and storing the magazines 8, 8′. The buffersystem S comprises, for example, at least a shelf 21, or, notillustrated, a table, a fittings changer carriage, a paternoster store,a carousel or another storage method, which is functionally assigned tothe automatic changer A such that, for example, the operator 2 canconveniently and manually carry out the charging and discharging of theautomatic changer A.

In contrast, FIG. 4 shows in a side view a fully automatic changersystem, consisting of the automatic changer A, buffer system S and atleast one robot R arranged between them, which carries out the chargingand discharging of the automatic changer A from the buffer system Sfully automatically. Instead of a robot R, other handling systems, suchas for example, linear axes, can be used.

FIG. 5 illustrates the magazines 8, 8′. Each magazine 8 is used for thestorage of a plurality of, for example eight, shielding plates P, eachcontaining a plate body 25 with a passage 26 for an end of the heatingmandrel D and the preform charged on it, as well as having plug-on feet27 arranged on the plate body 25 for fixing and positioning theshielding plate P on the conveyor chain K. The plug-on feet 27 are, forexample, plugged into openings 23 of the magazine 8. The loadedshielding plates P can be additionally secured by a ridge 24. Themagazine 8′ for the heating mandrels D has a row of spaced openings 22into which the heating mandrels D fit. The magazines 8, 8′ are forexample die-cast moulded parts. The number of heating mandrels D orshielding plates P can comprise any number, whereby expediently thenumbers amongst themselves are equal.

In a side view FIG. 6 illustrates the conveyor chain K and the spindlebridge 11 for an automatic changeover of both the shielding plates P andthe heating mandrels D. The unlocking components 14 are for exampleforks or fingers 28 for releasing heating mandrel locks 44 (FIG. 8) andpressure pins or pressure plates 32 for releasing shielding plate locks37 (FIG. 7). The forks 28 or fingers can be adjustable by means of atleast one actuator 29, e.g. a pneumatic cylinder, in the upwardsdirection and additionally in the horizontal direction in a housing 30via at least one further actuator 31, preferably a pneumatic cylinder.The pressure fingers 32 can be adjusted by means of at least oneactuator 33, for example a pneumatic cylinder, in the horizontaldirection and, for example, positioned to the height of the shieldingplate locks 37, which in each case are located constructionally separatefrom the heating mandrel receptacle 42 (refer also to FIGS. 7 and 8) ina body 35 of a chain link.

On the spindle bridge 11 in FIG. 6 a forcing plate 35 is movablysupported in the upwards direction, which can be lowered by actuators36, e.g. pneumatic cylinders, from the position shown in FIG. 6 into theposition illustrated in FIG. 9 to displace a shaft 34 in the spindle 9and thus displace the heating mandrel receptacle 42 (FIG. 8) temporarilydownwards until the lower end of the heating mandrel D protrudesdownwards through the shielding plate P and is easier to grasp.

FIG. 6 illustrates a starting situation for an automatic changeover ofboth the shielding plates P and the heating mandrels D. In this case theactuators 36 are optionally not operated, because firstly (FIG. 7) theshielding plates P are released by means of the pressure pins 32 andremoved by the gripper 39 of the turret 19, and only then can theheating mandrels D, which are then exposed, be removed, after releasingthe heating mandrel locks 44 by means of the forks or fingers 28, by thegripper 39′ of the turret 19 which has rotated further by one division.The heating mandrel receptacle 42 is moulded in a, for example, body 40of the chain link joined to the shaft 34 and at the lower end bears theheating mandrel lock 44, e.g. an annular ring, which only has to bebriefly pressed upwards to release the ball lock 41 against the springforce from the fork or a finger 28. Although with the sequentialchangeover of the heating mandrels D and the shielding plate P theactuation of the forcing plate 35 is not essential, the forcing plate 35can however be used to position the heating mandrels D better for thegripper 39′ of the turret 19 and to manage with a shorter verticalstroke of the turret 19.

In the following the turret 19, which temporarily stores the removedshielding plates P and heating mandrels D, is rotated by a division tobring the heating mandrels D to be inserted into the insertion position.Of course, the turret 19 is in each case temporarily lowered between theremoval of the shielding plates P and the removal of the heatingmandrels D and appropriately rotated and then elevated again by means ofthe linear unit.

The heating mandrels D to be inserted are now aligned with shafts 43 tothe heating mandrel receptacles 42 (refer to FIG. 8) and are introducedinto the heating mandrel receptacles 42 by elevating the turret 19 andlocked therein for example automatically by means of ball locks 41before the gripper 39′ is opened and the turret 19 travels downwardsagain. Once the heating mandrels D are properly inserted, the turret 19travels down again and is subsequently or during the movement furtherrotated by a division so that the shielding plates P to be inserted areready for insertion with plug-on feet 27 (FIG. 7) aligned upwards. Theturret 19 again moves upwards and pushes the plug-on feet 27 of theshielding plates P held by the gripper 39 into the holes 36 of the chainlink body 35, whereupon the plug-on feet 27 are automatically locked bythe shielding plate lock 37, for example by a pin, which is movableagainst a spring force and which engages an opening in a retaininggroove in the plug-on foot 27. Apart from that, the arrow 38 in FIG. 7indicates the pressure direction of the pressure pins 32 for releasingthe shielding plate lock 37.

Then the gripper 39 is opened and the turret 19 travels downwards again.This completes a changeover cycle both for the heating mandrels D andthe shielding plates P. Although this is not absolutely essential, thepressure plate 35 can also be moved temporarily downwards for thechangeover of the heating mandrels D to facilitate grasping the heatingmandrels D to be changed and/or to bring the heating mandrel lock 44closer to the forks or fingers 28 and/or to manage with a shorterpositioning stroke of the turret 19 which takes less time.

Subsequently or already during the changeover cycle, the turret 19 cancharge removed heating mandrels D and shielding plates P into themagazines 8, 8′ on the magazine holder 4 through appropriate loweringmovements and rotations about the axis Y before the magazines 8, 8′ aretransferred into the buffer system S and replaced by new full magazines8, 8′. This can be carried out by either the operator 2 or fullyautomatically by the robot R. Thereafter the automatic changer is readyfor a new changeover cycle. The conveyor chain K is transported furtherby an appropriate distance so that the heating mandrels and shieldingplates D, P to be changed next are brought into the service area 1 andto the automatic changer A. Alternatively, the heating mandrels D andshielding plates P could also be transferred individually.

The same automatic changer can also just automatically change theheating mandrels D according to FIG. 9, if the shielding plates P remainon the conveyor chain K, because they also fit the new heating mandrelsD or preforms. At the start of a changeover cycle of this nature theturret 19 is first aligned with the empty gripper 39′ on the heatingmandrels D and elevated until the gripper 39′ is located in a raisedposition ready for accepting the heating mandrels D. The gripper 39′,offset by 180°, is charged. Simultaneously, thereafter or previously,the forcing plate 35 is moved downwards to press the shafts 34 of thegroup of the heating mandrels D to be removed in the spindles 9downwards until the lower ends of the heating mandrels D (FIG. 9)protrude downwards beyond the shielding plates P and enter the region ofthe gripper 39′. The gripper 39′ grips the heating mandrels D while orbefore the forks or fingers 28 have released the heating mandrel locks44, whereupon the turret 19 moves downwards and withdraws the heatingmandrels D. Then the turret 19 is rotated by a 180° division to alignthe heating mandrels D to be inserted to the heating mandrel receptacles42 and the removed heating mandrels D are optionally inserted into anempty magazine 8′. The turret 19 again moves upwards and pushes theshafts 43 of the heating mandrels D into the heating mandrel receptacles42 in which they are locked by the ball lock 41. The forks or fingers 28have already been removed previously from the heating mandrel locks 44.The changeover cycle is thus concluded. The forcing plate 35 is raisedagain before the conveyor chain K is transported further by anappropriate amount in order to change the next group of heating mandrelsD. Only then, the turret 19 optionally transfers the removed heatingmandrels D to the magazine 8′, which transfers into the buffer system Sand is replaced by a magazine 8′ with heating mandrels D to be insertedand this is done either by the operator 2 or fully automatically by therobot R. In order to change the automatic changer A between the twodifferent changeover modes no retooling work is needed, but instead onlyswitching from one mode to the other needs to be carried out on thecontroller. The changeover modes can be designed differently in theirsequence. An example is given in the following.

Brief description of the two different changeover modes with achangeover cycle for each one:

Mode for automatic changeover of the heating mandrels D and theshielding plates P:

The turret 19 has in each case a loaded and an empty gripper 39, 39′.

The linear unit moves the turret 19 upwards, which points upwards andhas the empty gripper 39 for the shielding plates P.

The gripper 39 clamps the shielding plates P.

The pressure pins 32 move out and release the shielding plate locks 37.

The linear unit pulls the turret 19 downwards and removes the shieldingplate P.

The turret 19 is rotated by 90° to align the empty gripper 39′ forheating mandrels D upwards.

Option: Optionally, the forcing plate 35 moves downwards on the spindlebridge 11 and presses out the heating mandrels D.

The linear unit moves the turret 19 upwards.

The empty gripper 39′ grips the heating mandrels D.

The forks or fingers 28 are brought to engage the heating mandrel locks44 and to release them.

The linear unit moves the turret 19 with the engaged heating mandrels Ddownwards.

The turret 19 is rotated by 90° in each case and inserts the heatingmandrels D and shielding plates P into an empty magazine 8, 8′ and ineach case moves slightly higher while the table 5 is rotated by 180°.

The forks or fingers 28 are withdrawn.

The operator 2 or the robot R charges either a new magazine 8, 8′ on thetable 5 with heating mandrels D and shielding plates P to be inserted orcharges the magazine holder 4 with the magazines 8, 8′ containing thenew heating mandrels D and shielding plates P, and transfers the removedheating mandrels D and shielding plates P or the magazines 8, 8′ intothe buffer system S.

The table 5 is previously or thereafter in each case rotated 180° aboutthe axis X.

The linear unit moves the turret 19 downwards.

The grippers 39, 39′ grip further heating mandrels D and shieldingplates P to be inserted.

The linear unit moves the turret 19 upwards into a central position.

The turret 19 is optionally rotated by 180° about the Y axis.

The linear unit moves the turret 19 fully upwards and inserts theheating mandrels D into the heating mandrel receptacles.

The gripper 39′ releases itself from the heating mandrels D.

The turret 19 is lowered and rotated by 90° about the Y axis.

The linear unit moves the turret 19 downwards.

The gripper 39 grips additional shielding plates P to be inserted.

The linear unit moves the turret 19 upwards into a central position.

The turret 19 is optionally rotated by 180° about the Y axis.

Option: On the spindle bridge 11 the forcing plate 35 moves upwards.

The linear unit moves the turret 19 fully upwards and inserts theshielding plates P into the chain link.

The gripper 39 releases itself from the shielding plates P.

The linear unit moves the turret 19 back into the central position.

The pressure pins 32 move back into the starting position.

The conveyor chain K is incremented by a certain number of divisions.

A new changeover cycle starts until finally all heating mandrels D andshielding plates P have been changed.

Changeover mode only for the heating mandrels D:

The turret 19 has a charged gripper 39′ and an empty gripper 39′.

The linear unit moves the turret 19 with the empty gripper 39′ alignedupwards for the heating mandrels D to be removed upwards until a centralposition is reached.

On the spindle bridge 11 the forcing plate 35 moves downwards andpresses the heating mandrels D forwards until they protrude from theshielding plates P.

The linear unit moves the turret 19 upwards until the heating mandrels Dhave entered the empty gripper 39′.

The gripper 39′ clamps the heating mandrels D to be removed.

The forks or fingers 28 actuate the heating mandrel locks 44 and releasethe heating mandrels D.

The linear unit moves the turret 19 with the engaged heating mandrels Ddownwards.

The forks or fingers 28 are withdrawn.

The linear unit moves the turret 19 downwards, the turret rotates by180° and transfers the removed heating mandrels D to the empty magazine8′ on the table 5.

The gripper 39′ is released before the turret 19 moves upwards.

The table 5 is rotated by 180° in order to align the magazine 8′ withthe removed heating mandrels D to the buffer system S, and tosimultaneously position a new magazine 8′ below the empty gripper 39′ ofthe turret 19.

The operator 2 or the robot R transfers the magazine 8′ with the removedheating mandrels D into the buffer system S and transfers a new magazine8′ with the heating mandrels D to be inserted to the table 5, on whichit is positioned and clamped to the magazine holder.

The linear unit moves the turret 19 downwards until the gripper 39′ hasgrasped the heating mandrels D to be inserted.

The linear unit moves the turret 19 upwards into a central position.

The turret 19 is optionally rotated by 180°.

The linear unit moves the turret 19 fully upwards, which inserts theheating mandrels D to be inserted into the heating mandrel receptacles42 which are pressed downwards.

The gripper 39′ releases itself from the inserted heating mandrels D.

The linear unit moves the turret 19 downwards.

The forcing plate 35 is adjusted upwards on the spindle bridge 11.

The turret 19 is rotated by 180° and transfers the removed heatingmandrels into the empty magazine 8′.

The gripper 39′ is released and the turret 19 is moved upwards into acentral position.

The table 5 is rotated by 180° about the X axis to align the magazine 8′with the removed heating mandrels D to the buffer system S and to alignanew magazine 8′ with heating mandrels D to be inserted on the emptygripper 39′ of the turret 19.

The operator 2 or the robot R transfers the magazine 8′ with the removedheating mandrels D into the buffer system S and transfers anew magazine8′ with the heating mandrels D to be inserted to the table 5.

The conveyor chain K is incremented by a certain number of divisions.

The changeover cycle for a group of heating mandrels is concluded.

1. Blowing machine (M) for containers, in particular bottles, comprisinga preform heating module (H) assigned to a blowing station (B), aconveyor chain (K) with exchangeable heating mandrels (D) (P), theheating module (H) on the conveyor chain (K) including a service areawith at least one automatic changer (A) for the automatic changeover ofat least the heating mandrels (D), the automatic changer (A) having amagazine holder and a turret with grippers and unlocking components oneof integrated into the automatic changer (A) or assigned to theautomatic changer (A).
 2. Blowing machine according to claim 1, whereinthe automatic changer (A) arranged in the service area on the conveyorchain (K) in a frame base comprises the magazine holder, a linearlyadjustable linear unit and the unlocking components which are positionedin the region of the conveyor chain (K) and which are movably drivablefor engaging locks are provided on the conveyor chain, wherein theturret is a removal and insertion turret with the grippers, which areadjustable between release positions and gripping positions, and theturret can be rotated in the linear unit.
 3. Blowing machine accordingto claim 2, wherein the magazine holder is a table which pivots about anapproximately vertical axis (X) in the frame base and on which at leastone magazine clamping device is arranged.
 4. Blowing machine accordingto claim 2, wherein the turret with the grippers in the frame base isrotationally drivable in steps on the linear unit about a horizontalaxis of rotation (Y).
 5. Blowing machine according to claim 1, andfirstly unlocked shielding plates (P) followed by unlocked heatingmandrels (D) which can be removed with the automatic changer (A) in achangeover cycle using the turret before heating mandrels (D) to beinserted and then shielding plates (P) to be inserted can be fitted, andthe turret forms a temporary store independently of a buffer system (S)at least for heating mandrels and shielding plates removed during achangeover cycle.
 6. Blowing machine according to claim 1, wherein theautomatic changer (A) is assigned a buffer system (S) for at leastheating mandrels (D).
 7. Blowing machine according to claim 5, whereinthe automatic changer (A) can be manually charged and discharged fromthe buffer system (S) by at least one operator.
 8. Blowing machineaccording to claim 5, and at least one robot (R) for the automaticcharging and discharging of the automatic changer (A) from the buffersystem (S).
 9. Blowing machine according claim 1, wherein the heatingmandrels (D) are arranged in receptacles of spindles, which are movableon the conveyor chain (K) relative to the shielding plates (P), and thata spindle movement mechanism is arranged either stationarily on aspindle bridge or on the automatic changer (A) for the automaticchangeover of just the heating mandrels (D) in the service area. 10.Blowing machine according to claim 1, wherein the unlocking componentsare arranged with actuators either on a spindle bridge or on theautomatic changer (A) have one of forks or fingers, which can beextended and raised by the actuators for releasing the heating mandrellocks, and/or at least extendable pressure pins for releasing shieldingplate locks.
 11. Blowing machine according to claim 5, wherein thebuffer system (S) has one of at least a shelf, a table, a changercarriage, a paternoster store, and a carousel.
 12. Automatic changer (A)for at least heating mandrels (D) comprises a magazine holder, a removaland insertion turret, adjustable and rotatable between the magazineholder and the conveyor chain (K), with grippers and movably drivableunlocking components for engaging locks, at least of the heatingmandrels (D), on the conveyor chain (K).
 13. Automatic changer accordingto claim 12, wherein the automatic changer (A) is assigned at least amagazine buffer system (S) at least for removed mandrel groups andmandrel groups to be inserted and that a magazine can either betransferred one of manually or by at least a robot (R) arranged betweenthe automatic changer (A) and the buffer system.
 14. Blowing machineaccording to claim 3, wherein the table pivots about the approximatelyneutral axis (X) by 180° to and fro.
 15. Blowing machine according toclaim 4, and having either only grippers for heating mandrels (D) or, inthe direction of rotation, grippers for heating mandrels (D) and forshielding plates (P).
 16. Blowing machine according to claim 15, andhaving the grippers alternating on 90° divisions for heating mandrels(D) and for shielding plates (P).
 17. Blowing machine according to claim6, wherein the buffer system (S) is also for shielding plates (P). 18.Blowing machine according to claim 6, wherein the buffer system (S) isfor in each case a group of containing magazines.
 19. Blowing machineaccording to claim 10, wherein the actuators are pneumatic cylinders.20. Blowing machine according to claim 11, wherein the shelf, table,changer carriage, paternoster store, and carousel have one of singlestorage points or magazine storage points.
 21. Blowing machine accordingto claim 1, further comprising a plurality of exchangeable heatshielding plates.
 22. Automatic changer according to claim 12, whereinthe heating mandrels are held alternately along with shielding plates ona conveyor chain of a heating module of a container blowing machine.